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The situation is that I have an array of items, and the items have an array inside. However, I want to make the array inside of variable length at declaration time, yet resizable at compile time.

So I would want something like:

class2<16>[] = new class2<16>[2048*1024];

Or whatever. Hopefully you get the idea.

Obviously making it have fixed array inside is easy, but the problem is the array can be HUGE so I don't want to have 2048*1024 calls to new, so I definitely don't want class2 to call any new or delete methods.

Is this even possible?

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Do you mean something like template<size_t itemSize> struct A { A(size_t itemCount) {} }; ? –  Georg Fritzsche Jan 19 '10 at 12:01
2  
And having huge structures created on the stack won't cause problems? –  anon Jan 19 '10 at 12:46
    
It won't be on the stack. I agree using stack up can be a bigger problem. What I want is to have ONE allocation for entire array, but if the classes have their own allocation (dynamic) then this is not possible. –  Charles Eli Cheese Jan 19 '10 at 20:59
    
gf - I am not sure if that will do exactly what I want, I will have to ponder it. –  Charles Eli Cheese Jan 19 '10 at 21:00

2 Answers 2

up vote 5 down vote accepted

You can create a template parameter for your internal array-size. For example:-

template<int siz>
class Item{
  int arr[siz];
};

int main() {
  Item<15> items[10];
  return 0;
}
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Thanks, I think that will work. –  Charles Eli Cheese Jan 19 '10 at 21:03

std::tr1::array (addition to standard library in C++0x) and boost::array already exist, taking two template parameters: the type and count of items:

std::tr1::array<int, 16> something;

You can have any number of those arrays at run-time with the std::vector container:

std::vector<std::tr1::array<int, 16> > lots_of_arrays(2048*1024);

Only one dynamic allocation involved here.

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